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Rong-Jian Liu

Department of Psychiatry, Yale University School of Medicine, New Haven, CT, USA.

2 papers in the library · 75 citations · publishing 2024-2025

Papers

Psilocybin's lasting action requires pyramidal cell types and 5-HT2A receptors.

Nature June 1, 2025 Ling-Xiao Shao, Clara Liao, Pasha A Davoudian et al. 75 citations

A single dose of psilocybin increases dendritic spine density in two types of pyramidal cells in the mouse medial frontal cortex: subcortical-projecting pyramidal tract (PT) and intratelencephalic (IT) neurons. Silencing PT neurons eliminates psilocybin's ability to reduce stress-related behaviors, while silencing IT neurons has no effect. Psilocybin boosts synaptic calcium transients and firing rates specifically in PT neurons shortly after administration. Knocking out the 5-HT2A receptor blocks psilocybin's effects on both stress-related behavior and structural plasticity. These findings identify PT neurons and the 5-HT2A receptor as essential for psilocybin's long-term actions.

Pyramidal cell types and 5-HT 2A receptors are essential for psilocybin’s lasting drug action

bioRxiv (Cold Spring Harbor Laboratory) November 3, 2024 Ling-Xiao Shao, Clara Liao, Pasha A Davoudian et al. preprint

A single dose of psilocybin increased the density of dendritic spines in both subcortical-projecting pyramidal tract (PT) and intratelencephalic (IT) cell types in the mouse medial frontal cortex. Silencing PT neurons eliminated psilocybin's ability to ameliorate stress-related phenotypes, whereas silencing IT neurons had no detectable effect. In PT neurons only, psilocybin boosted synaptic calcium transients and elevated firing rates acutely after administration. Targeted knockout of 5-HT2A receptors abolished psilocybin's effects on stress-related behavior and structural plasticity. These results identify a pyramidal cell type and the 5-HT2A receptor in the medial frontal cortex as essential for psilocybin's long-term drug action.